Folding clothes horse

By designing foldable support components, connecting components, and drying components, combined with a scissor-type telescopic structure and a detachable drying net, the problems of insufficient stability, flexibility, and folding range of existing clothes racks are solved, achieving efficient space utilization and diverse drying adaptability.

CN224325587UActive Publication Date: 2026-06-05史普芹

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
史普芹
Filing Date
2025-05-30
Publication Date
2026-06-05

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Abstract

The utility model relates to a kind of folding clothes drying rack, belong to drying rack technical field.A kind of folding clothes drying rack, including support component, the support component can be folded along first direction;Connecting component, the connecting component is set on the support component, the connecting component can be folded along the first direction;Drying component, the drying component rotation is set on the connecting component, the drying component can be folded along the first direction.The folding clothes drying rack disclosed in the application, the support component, connecting component and drying component of folding clothes drying rack cooperate, when idle, can effectively reduce space by folding operation, it is beneficial to storage, make overall structure compact;In unfolded use state, clothes drying rack is stable and reliable, can provide solid support for drying, while still can be according to the drying demand of diversification, flexible adjustment drying layout, improve the practicability and flexibility of clothes drying rack.
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Description

Technical Field

[0001] This utility model relates to the field of clothes drying rack technology, and in particular to a folding clothes drying rack. Background Technology

[0002] Freestanding clothes racks are a common and popular drying device in people's lives today. Currently, the most common freestanding clothes racks on the market generally have two types of support rods: double-rod and multi-rod. Their side shapes are typically "X," "H," wing-shaped, or butterfly-shaped. Foldable freestanding clothes racks often better meet people's daily needs for convenience; however, these racks may have problems such as poor stability, stiff folding, and insufficient folding range. Therefore, it is necessary to improve existing technology and develop a foldable clothes rack that combines good stability with high flexibility and a high degree of folding range. Utility Model Content

[0003] Therefore, it is necessary to provide a folding clothes drying rack to address the issues of stability, flexibility, and folding range during the use of floor-standing clothes drying racks.

[0004] A folding clothes drying rack includes: a support member capable of folding along a first direction; a connecting member disposed on the support member and capable of folding along the first direction; and a drying member rotatably disposed on the connecting member and capable of folding along the first direction.

[0005] This application discloses a folding clothes rack. The supporting component, connecting component, and drying component all have the characteristic of folding along a first direction, which gives the folding clothes rack a good and stable folding effect. When not in use, the supporting component can be folded to effectively reduce its space occupation, allowing it to be easily placed in narrow spaces such as wardrobe corners or balcony gaps, thus maintaining a clean and orderly home environment. The connecting component works in conjunction with the supporting component, and when folded together, the clothes rack presents a more compact structure, saving space during storage and making it more convenient and quick to move and store. The drying component can not only fold along the first direction but also rotate flexibly relative to the connecting component. During storage, these two characteristics allow it to fit snugly with other components, further optimizing the overall storage space utilization. In actual use, users can flexibly adjust the angle of the drying component and the layout of the drying space according to the characteristics and needs of different dried items, making it well-suited for diverse drying scenarios and effectively improving the overall practicality and flexibility of the clothes rack.

[0006] In one embodiment, the drying component has at least a first position, a second position, and a third position when it rotates relative to the connecting component. When the drying component is in the first position, it abuts against or is adjacent to the supporting component. When the drying component is in the second position, it is parallel to the horizontal plane. When the drying component is in the third position, it has an angle relative to the horizontal plane. When the drying component is in the first position, it fits snugly against the support component, resulting in a neat and compact structure when the clothes rack is folded. This maximizes storage space and avoids wasted space due to loose components, making it easy to store in relatively small spaces. When the drying component is in the second position, it meets regular drying needs. For fabrics with large drying areas, it ensures that the items can be laid flat on the drying component, accelerating moisture evaporation and improving drying efficiency. When the drying component is in the third position, the angled setting is designed to accommodate items with special shapes or specific drying requirements. By adjusting the drying component to a suitable tilt angle, these items can be placed more stably, preventing them from slipping during drying. This broadens the applicability of the clothes rack and meets the drying needs of various types of items.

[0007] In one embodiment, the supporting component includes a first support rod assembly and a second support rod assembly. The first and second support rod assemblies are rotatably mounted on the connecting component. When the first and second support rod assemblies rotate relative to the connecting component, they can move closer to or further away from each other. Both the first and second support rod assemblies can be folded along the first direction. The rotatable and foldable design of the supporting component provides excellent flexibility. When the clothes rack is unfolded, the user can adjust the support range and load-bearing capacity of the supporting component by adjusting the support rod assemblies according to the quantity, size, and weight of the items to be dried. This provides a stable and suitable support structure for the items, ensuring the clothes rack remains stable even when carrying many or heavy items. When the clothes rack needs to be stored, the support rod assemblies can be folded along the first direction, effectively reducing the volume of the supporting component itself, making the storage of the entire clothes rack more convenient and reducing the space occupied.

[0008] In one embodiment, the supporting component further includes a drying net assembly, which is detachably mounted on the supporting component. The detachable nature of the drying net assembly adds flexibility to the use of the clothes rack. During daily drying, when small items need to be dried, the drying net assembly can be installed on the supporting component, effectively preventing small items from falling through the gaps in the drying component. When small items are not needed, or when the clothes rack is folded for storage, the drying net assembly can be easily removed without affecting the overall structure of the clothes rack. This allows users to flexibly choose according to their actual drying needs, avoids unnecessary component redundancy, and improves the overall practicality of the clothes rack.

[0009] In one embodiment, the connecting component includes a first kit and a first folding assembly. The connecting component includes at least two first kits, two of which are disposed on the support component and located on both sides of the support component. The first folding assembly is connected to two adjacent first kits and is foldable along the first direction. The drying component is connected to both the first kits and the first folding assembly. This structural layout ensures smooth folding and unfolding of the entire clothes rack, reducing potential jamming or obstruction due to poor fit between components. Simultaneously, when the clothes rack is in unfolded use, the structure provides stable and reliable support for the drying component, ensuring it does not loosen or wobble when bearing the weight of the items being dried, thus guaranteeing the safety and stability of the drying process and effectively improving the overall performance of the clothes rack.

[0010] In one embodiment, there are two first folding components, each connected to two adjacent first kits. There are also two drying components, each connected to one of the first kits and one of the two first folding components. The two drying components are located on opposite sides of the first kit. This structure ensures balanced force distribution on the clothes rack, distributing weight when carrying items and preventing structural deformation or damage caused by excessive localized stress. This ensures the overall stability and reliability of the clothes rack and extends its lifespan. Furthermore, during folding, the symmetrical components on both sides coordinate naturally, making the operation more orderly and reducing potential confusion and complexity. This makes the folding process simpler and faster, optimizing the overall user experience and better meeting the convenience needs of daily use.

[0011] In one embodiment, the first folding assembly includes a first folding component and a second kit. There are multiple first folding components connected sequentially. The first folding components at both ends are connected to two adjacent first kits. There are multiple second kits located at the intersections of adjacent first folding components. The drying component is connected to at least two first kits and multiple second kits. This structural design gives the first folding assembly excellent telescopic and folding performance. During the unfolding or folding of the clothes rack, the multiple first folding components cooperate with each other and work in concert with the second kits to smoothly and orderly unfold the drying component to a suitable position or retract it, ensuring a smooth and stable unfolding or folding process. This precise coordination ensures the integrity of the entire clothes rack structure during different state transitions, enabling it to function stably and reliably whether in frequent unfolding and folding operations during daily use or during long-term storage, effectively improving the overall durability and reliability of the clothes rack.

[0012] In one embodiment, the first kit includes a sliding groove, a guide groove, and a positioning hole. There are two guide grooves and two positioning holes, symmetrically arranged on both sides of the groove wall of the sliding groove. The positioning hole is located above or below the guide groove. The kit also includes a positioning pin and a sliding pin, which are disposed on the first folding components located at both ends of the plurality of first folding components. The positioning pin is adapted to the positioning hole and passes through the two symmetrically arranged positioning holes. The sliding pin is adapted to the guide groove and passes through the two symmetrically arranged guide grooves. The sliding pin can move along the guide groove. By precisely fitting and inserting the positioning pins and positioning holes, the relative positions of each component are ensured to remain stable and accurate at all times, effectively avoiding structural instability and uncoordinated movements that may be caused by component positional deviations. At the same time, the fitting of the sliding pins and guide grooves, as well as their ability to move along the guide grooves, allows the relevant components to move smoothly in the direction defined by the guide grooves when the clothes rack is folded or unfolded, ensuring the flexibility and smoothness of the entire folding or unfolding action, and enabling the clothes rack to complete state transitions more efficiently in daily use.

[0013] In one embodiment, the first folding component is a scissor-type telescopic structure. Due to its unique structural characteristics, the scissor-type telescopic structure has good telescopicity and strong load-bearing capacity. During the unfolding process of the clothes rack, the extension of this structure can reasonably expand the drying space of the clothes rack to better accommodate the placement needs of more or larger items. When storing, the retraction of the scissor-type telescopic structure allows the various components of the clothes rack to fit together more compactly, thereby effectively reducing the space occupied after storage, thus meeting the diverse requirements for the space utilization of the clothes rack in different usage scenarios.

[0014] In one embodiment, the drying component includes a third kit, a second folding assembly, and a hanging rod. The hanging rod includes main hanging rods and movable hanging rods. The number of main hanging rods is the same as the number of the first kit. One end of the main hanging rod is attached to the first kit, and the other end of the main hanging rod is attached to the third kit. Both ends of the second folding assembly are connected to adjacent third kits. The number of movable hanging rods is the same as the number of second kits and they are located between adjacent main hanging rods. One end of the movable hanging rod is connected to the second kit, and the other end is connected to the second folding assembly. This structural design enables the drying component to flexibly adjust the drying space. During actual drying, users can adjust the size and layout of the drying space according to the actual quantity and size of the items being dried, thereby better meeting the diverse needs of different drying scenarios.

[0015] In one embodiment, the second folding assembly includes an upper scissor frame tube and a lower scissor frame tube. The upper scissor frame tube is located above the lower scissor frame tube. There are multiple upper and lower scissor frame tubes, and they are arranged in an alternating pattern. When the folding frame needs to be opened or folded, the upper and lower scissor frame tubes shift relative to each other, causing the hanging rod to unfold to the sides or retract towards the center. The movable hanging rod connects to either the upper or lower scissor frame tubes. This alternating structural design ensures smooth and stable unfolding and retraction of the drying components, guarantees accurate and orderly changes in the drying space, and avoids structural damage caused by poor component coordination.

[0016] In one embodiment, the supporting component includes a supporting tube assembly and a third folding assembly. The number of supporting tube assemblies is the same as the number of the first kit, and adjacent supporting tube assemblies are connected by the third folding assembly. This connection method gives the supporting component good foldability. When the clothes rack is not in use and needs to be stored, the supporting tube assemblies can move relative to each other and fold up, effectively reducing the overall volume of the supporting component and avoiding the inconvenience caused by an excessively large supporting component. When the clothes rack is unfolded for use, the supporting component can provide reliable support for the drying components, ensuring that the clothes rack will not shake or collapse during the process of carrying drying items, thus ensuring the safety and reliability of the clothes rack during use.

[0017] In one embodiment, the support tube assembly includes a first rod and a second rod, which are rotatably mounted on the first kit. When the first and second rods rotate relative to the first kit, they can move closer to or further apart from each other. Adjacent first rods are connected by the third folding assembly, and adjacent second rods are connected by the third folding assembly. This structure allows for more flexible adjustment of the support component's width, better adapting to different usage scenarios and storage needs. In actual use, users can adjust the support range reasonably according to the quantity and size of the items being dried, improving the efficiency of the clothes rack while increasing space utilization.

[0018] In one embodiment, the third folding assembly includes a fixed component, a sliding component, and a movable component. The fixed component is respectively sleeved on adjacent support tube assemblies, and the sliding component is respectively sleeved on adjacent support tube assemblies. One end of the movable component is connected to the fixed component, and the other end is connected to the sliding component. When the folding frame needs to be opened or folded, the movable component drives the sliding component to slide on the support tube assembly. At the same time, the movable component drives the adjacent support tube assemblies to move closer to or further away from each other along the first direction. The movable component also includes a third rod and a fourth rod. One end of the third rod is connected to the fixed component on the support tube assembly, and the other end is connected to the sliding component on the adjacent support tube assembly. One end of the fourth rod is connected to the fixed component on the support tube assembly, and the other end is connected to the sliding component on the adjacent support tube assembly. The middle part of the fourth rod is rotatably connected to the middle part of the third rod. The above structural design ensures that the components of the support structure work closely together and coordinate their movements during folding and unfolding, guaranteeing the stability and reliability of the entire support structure. When unfolded, it forms a stable support frame, and when folded, it can complete the folding action smoothly, improving the user's operating experience.

[0019] In one embodiment, the third folding component is a scissor-type telescopic structure. This scissor-type telescopic third folding component possesses excellent telescopic and load-bearing capabilities, helping the support components to better achieve folding and unfolding functions. When the clothes rack is unfolded, the scissor-type structure can gradually extend, reasonably increasing the distance between the support tube components, thereby providing sufficient support space for the drying components and ensuring ample drying area for the items. When stored, the scissor-type structure can quickly retract, causing the support tube components to move closer together, effectively reducing the volume of the support components and facilitating the storage of the clothes rack.

[0020] In one embodiment, the support component further includes a protective sleeve, which is fitted over the end of the support tube assembly away from the first kit. The protective sleeve provides multiple protective functions. In daily use, it prevents the support tube assembly from being scratched or worn when in contact with the ground or other hard surfaces, and also prevents scratches on the surface of the support tube assembly itself, extending its service life and making the clothes rack more durable. Simultaneously, the protective sleeve improves the stability of the clothes rack when placed, preventing it from sliding or tipping over during use, ensuring safety during the drying process. Furthermore, the protective sleeve also provides cushioning, reducing noise generated during movement or folding of the clothes rack and enhancing the user experience. Attached Figure Description

[0021] Figure 1 A perspective view of the first embodiment of the folding clothes rack;

[0022] Figure 2 A perspective view of the second embodiment of the folding clothes rack;

[0023] Figure 3 A perspective view of the third embodiment of the folding clothes rack;

[0024] Figure 4 A perspective view of the fourth embodiment of the folding clothes rack;

[0025] Figure 5 This is a 3D view of the drying components in the third position.

[0026] Figure 6 A 3D view of the folded clothes rack in its stored state;

[0027] Figure 7 An exploded view of a folding clothes rack;

[0028] Figure 8 A 3D view of the connecting components;

[0029] Figure 9 Exploded view of the connecting components;

[0030] Figure 10 First stereoscopic view of the first kit;

[0031] Figure 11 The second stereoscopic view of the first kit;

[0032] Figure 12 A 3D view of the drying components;

[0033] Figure 13 A 3D view of the second folding component;

[0034] Figure 14 A 3D view of the supporting components;

[0035] Figure 15 Exploded view of supporting components;

[0036] Figure 16 This is a 3D view of the moving parts.

[0037] The correspondence between the reference numerals and the component names is as follows:

[0038] 1 Support component, 11 Support tube assembly, 110 First support rod assembly, 120 Second support rod assembly, 111 First rod, 112 Second rod, 12 Third folding assembly, 121 Fixed component, 122 Sliding component, 123 Movable component, 1231 Third rod, 1232 Fourth rod, 13 Protective sleeve;

[0039] 2 connecting components, 21 first kit, 211 positioning pin, 212 sliding pin, 2101 sliding groove, 2102 guide groove, 2103 positioning hole, 22 first folding assembly, 221 first folding component, 222 second kit;

[0040] 3. Drying components, 31. Third kit, 32. Second folding assembly, 321. Upper scissor rack tube, 322. Lower scissor rack tube, 33. Hanging rod, 331. Main hanging rod, 332. Movable hanging rod;

[0041] 4. Sun-drying net components. Detailed Implementation

[0042] To better understand the above-mentioned objectives, features, and advantages of the present invention, the present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.

[0043] Many specific details are set forth in the following description in order to provide a full understanding of the invention. However, the invention may also be practiced in other ways different from those described herein, and therefore the scope of protection of the invention is not limited to the specific embodiments disclosed below.

[0044] The following describes some embodiments of the folding clothes drying rack according to the present invention with reference to the accompanying drawings.

[0045] like Figures 1 to 16 As shown, this embodiment discloses a folding clothes drying rack, which includes: a support component 1, which can be folded along a first direction; a connecting component 2, which is disposed on the support component 1 and can be folded along the first direction; and a drying component 3, which is rotatably disposed on the connecting component 2 and can be folded along the first direction.

[0046] This application discloses a folding clothes rack. The supporting component 1, connecting component 2, and drying component 3 all have the characteristic of folding along a first direction, which gives the folding clothes rack a good and stable folding effect. When not in use, the supporting component 1 can be folded to effectively reduce its space occupation, allowing it to be easily placed in narrow spaces such as wardrobe corners or balcony gaps, thus maintaining a clean and orderly home environment. The connecting component 2 works in conjunction with the supporting component 1, and when folded together, the clothes rack presents a more compact structure, saving space during storage and making it more convenient and quick to move and store. The drying component 3 can not only fold along the first direction but also rotate flexibly relative to the connecting component 2. During storage, these two characteristics allow it to fit snugly with other components, further optimizing the overall storage space utilization. In actual use, users can flexibly adjust the angle of the drying component 3 and the layout of the drying space according to the characteristics and needs of different items to be dried, making it well-suited for diverse drying scenarios and effectively improving the overall practicality and flexibility of the clothes rack.

[0047] like Figure 1 , Figure 5 and Figure 6As shown, in addition to the features of the above embodiments, this embodiment further defines that: when the drying component 3 rotates relative to the connecting component 2, it has at least a first position, a second position and a third position; when the drying component 3 is in the first position, the drying component 3 abuts against or is adjacent to the supporting component 1; when the drying component 3 is in the second position, the drying component 3 is parallel to the horizontal plane; and when the drying component 3 is in the third position, the drying component 3 has an angle relative to the horizontal plane. When the drying component 3 is in the first position, it fits tightly against the support component 1, making the folded clothes rack structure neat and compact. This facilitates full utilization of storage space and avoids wasted space due to loose components, making it easy to store in relatively small spaces. When the drying component 3 is in the second position, it meets regular drying needs. When drying fabrics with large areas, it ensures that the items can be laid flat on the drying component 3, accelerating the evaporation of moisture and improving drying efficiency. When the drying component 3 is in the third position, the angle setting is designed to accommodate items with special shapes or specific drying requirements. By adjusting the drying component 3 to a suitable tilt angle, these items can be placed more stably, preventing them from slipping during drying. This broadens the applicability of the clothes rack and meets the drying needs of various types of items.

[0048] like Figure 1 Figure 6 and Figure 7 As shown, in addition to the features of the above embodiments, this embodiment further specifies that: the support component 1 includes a first support rod assembly 110 and a second support rod assembly 120. The first support rod assembly 110 and the second support rod assembly 120 are rotatably mounted on the connecting component 2. When the first support rod assembly 110 and the second support rod assembly 120 rotate relative to the connecting component 2, they can move closer to each other or further away. Both the first support rod assembly 110 and the second support rod assembly 120 can be folded along the first direction. The rotatable and foldable design of the support component 1 gives it good flexibility. When the clothes rack is unfolded for use, the user can adjust the support range and load-bearing capacity of the support component 1 by adjusting the support rod assembly according to the actual quantity, size, and weight of the items to be dried, thereby providing a stable and suitable support structure for the items to be dried, ensuring that the clothes rack can remain stable even when carrying a lot or heavy items. When the clothes rack needs to be stored, the support rod assembly can be folded along the first direction, effectively reducing the volume of the support component 1 itself, thus making the storage of the entire clothes rack more convenient and reducing the space occupied.

[0049] like Figure 1 and Figure 2As shown, in addition to the features of the above embodiments, this embodiment further includes a drying net assembly 4, which is detachably mounted on the support component 1. The detachability of the drying net assembly 4 adds flexibility to the use of the clothes rack. During daily drying, when small items need to be dried, the drying net assembly 4 is installed on the support component 1, effectively preventing small items from falling through the gaps in the drying component 3. When small items are not needed, or when the clothes rack is folded and stored, the drying net assembly 4 can be easily disassembled without affecting the overall structure of the clothes rack. This allows users to flexibly choose according to their actual drying needs, avoids unnecessary component redundancy, and improves the overall practicality of the clothes rack.

[0050] like Figure 1 , Figure 7 , Figure 8 , Figure 9 , Figure 10 and Figure 11 As shown, in addition to the features of the above embodiments, this embodiment further specifies that: the connecting component 2 includes a first kit 21 and a first folding assembly 22. The connecting component 2 includes at least two first kits 21, two of which are disposed on the support component 1 and located on both sides of the support component 1. The first folding assembly 22 is connected to the two adjacent first kits 21 and can be folded along a first direction. The drying component 3 is connected to the first kits 21 and the first folding assembly 22 respectively. The above structural layout ensures the smoothness of the entire clothes rack folding and unfolding process, reducing problems such as jamming and obstruction that may occur due to poor cooperation between components. At the same time, when the clothes rack is in the unfolded use state, the above structure can provide stable and reliable support for the drying component 3, ensuring that the drying component 3 will not loosen or shake when bearing the weight of the items being dried, thus ensuring the safety and stability of the drying process and effectively improving the overall performance of the clothes rack.

[0051] In addition to the features of the above embodiments, this embodiment further specifies that: the number of first folding components 22 is two, and the two first folding components 22 are respectively connected to two adjacent first kits 21; the number of drying components 3 is two, and each drying component 3 is respectively connected to one of the first kits 21 and one of the two first folding components 22; the two drying components 3 are located on both sides of the first kits 21. This structure ensures balanced force distribution on the clothes rack, distributing weight when carrying items and avoiding structural deformation or damage caused by excessive localized force. This ensures the overall stability and reliability of the clothes rack structure and extends its service life. Furthermore, during folding operations, the symmetrical components on both sides can naturally coordinate and cooperate during the folding process, making the operation steps more regular and orderly, reducing potential confusion and complexity during operation, and making the entire folding process simpler and faster. Overall, this optimizes the user experience of the clothes rack, making it more suitable for the convenience needs of daily use.

[0052] In addition to the features of the above embodiments, this embodiment further defines that: the first folding assembly 22 includes a first folding component 221 and a second kit 222. There are multiple first folding components 221 connected in sequence. The first folding components 221 located at both ends of the multiple first folding components 221 are respectively connected to two adjacent first kits 21. There are multiple second kits 222, which are disposed at the intersection of adjacent first folding components 221. The drying component 3 is connected to at least two first kits 21 and multiple second kits 222 respectively. The above structural design gives the first folding component 22 excellent telescopic and folding performance. During the unfolding or folding of the clothes rack, multiple first folding components 221 cooperate with each other and work in concert with the second component 222 to orderly and smoothly unfold the drying component 3 to the appropriate position or retract and fold it, ensuring that the entire unfolding or folding process is smooth and stable. This precise cooperation structure ensures the integrity of the entire clothes rack structure during different state transitions, enabling it to function stably and reliably whether in frequent unfolding and folding operations during daily use or during long-term storage, effectively improving the overall durability and reliability of the clothes rack.

[0053] In addition to the features of the above embodiments, this embodiment further specifies that: the first kit 21 is provided with a sliding groove 2101, a guide groove 2102 and a positioning hole 2103. There are two guide grooves 2102 and two positioning holes 2103, which are symmetrically arranged on both sides of the groove wall of the sliding groove 2101. The positioning hole 2103 is located above or below the guide groove 2102. It also includes a positioning pin 211 and a sliding pin 212. The positioning pin 211 and the sliding pin 212 are arranged on the first folding components 221 located at both ends of the plurality of first folding components 221. The positioning pin 211 is adapted to the positioning hole 2103 and passes through the two symmetrically arranged positioning holes 2103. The sliding pin 212 is adapted to the guide groove 2102 and passes through the two symmetrically arranged guide grooves 2102. The sliding pin 212 can move along the guide groove 2102. The precise fit and insertion between the positioning pin 211 and the positioning hole 2103 ensures that the relative positions of each component remain stable and accurate, effectively avoiding structural instability and uncoordinated movements that may be caused by component position deviation. At the same time, the fit between the sliding pin 212 and the guide groove 2102, and its ability to move along the guide groove 2102, allows the relevant components to move smoothly in the direction defined by the guide groove 2102 when the clothes rack is folded or unfolded, ensuring the flexibility and smoothness of the entire folding or unfolding action, and enabling the clothes rack to complete state transitions more efficiently in daily use.

[0054] like Figure 1 and Figure 3 As shown, in addition to the features of the above embodiments, this embodiment further specifies that: the first folding component 221 is a scissor-type telescopic structure. Due to its unique structural characteristics, the scissor-type telescopic structure has good telescopicity and strong load-bearing capacity. During the unfolding process of the clothes rack, the extension of this structure can reasonably expand the drying space of the clothes rack to better adapt to the placement needs of more or larger items for drying; while during the storage operation, the retraction of the scissor-type telescopic structure can make the various components of the clothes rack fit together more compactly, thereby effectively reducing the space occupied after storage, thus meeting the diverse requirements for the space utilization of the clothes rack in different usage scenarios.

[0055] like Figure 1 , Figure 12 and Figure 13As shown, in addition to the features of the above embodiments, this embodiment further defines: the drying component 3 includes a third kit 31, a second folding assembly 32, and a hanging rod 33. The hanging rod 33 includes a main hanging rod 331 and a movable hanging rod 332. The number of main hanging rods 331 is the same as the number of first kits 21. One end of the main hanging rod 331 is mounted on the first kit 21, and the other end of the main hanging rod 331 is mounted on the third kit 31. Both ends of the second folding assembly 32 are respectively connected to adjacent third kits 31. The number of movable hanging rods 332 is the same as the number of second kits 222 and they are located between adjacent main hanging rods 331. One end of the movable hanging rod 332 is connected to the second kit 222, and the other end is connected to the second folding assembly 32. The above structural design enables the drying component 3 to flexibly adjust the drying space. In the actual drying process, the user can adjust the size and layout of the drying space according to the actual quantity, size, and other specific circumstances of the items being dried, thereby better meeting the diverse needs of different drying scenarios.

[0056] In addition to the features of the above embodiments, this embodiment further specifies that: the second folding assembly (32) includes an upper scissor frame tube 321 and a lower scissor frame tube 322. The upper scissor frame tube 321 is located above the lower scissor frame tube 322. There are multiple upper scissor frame tubes 321 and lower scissor frame tubes 322. The number of upper scissor frame tubes 321 and lower scissor frame tubes 322 is the same and they are staggered. When the folding frame needs to be opened or folded, the upper scissor frame tubes 321 and lower scissor frame tubes 322 undergo relative displacement to drive the hanging rod 33 to unfold to both sides or retract to the center. The movable hanging rod 332 is connected to the upper scissor frame tube 321 or the lower scissor frame tube 322. This staggered structural design makes the unfolding and retraction of the drying component 3 smooth and stable, ensuring accurate and orderly changes in the drying space and avoiding structural damage caused by poor component coordination.

[0057] like Figure 1 , Figure 14 , Figure 15 and Figure 16As shown, in addition to the features of the above embodiments, this embodiment further specifies that: the support component 1 includes a support tube assembly 11 and a third folding assembly 12. The number of support tube assemblies 11 is the same as the number of the first kit 21, and adjacent support tube assemblies 11 are connected by the third folding assembly 12. The above connection method gives the support component 1 good foldability. When the clothes rack is idle and needs to be stored, each support tube assembly 11 can move relative to each other and fold up, effectively reducing the overall volume of the support component 1 and avoiding the inconvenience caused by the excessive volume of the support component 1. When the clothes rack is unfolded for use, the support component 1 can provide reliable support for the drying component 3, ensuring that the clothes rack will not shake or collapse during the process of carrying drying items, thus ensuring the safety and reliability of the clothes rack during use.

[0058] In addition to the features of the above embodiments, this embodiment further specifies that: the support tube assembly 11 includes a first rod 111 and a second rod 112, which are rotatably mounted on the first kit 21. When the first rod 111 and the second rod 112 rotate relative to the first kit 21, they can move closer to or further away from each other. Adjacent first rods 111 are connected by a third folding assembly 12, and adjacent second rods 112 are connected by a third folding assembly 12. The above structure makes the width adjustment of the support component 1 more flexible, better adaptable to different usage scenarios and storage needs. In actual use, users can reasonably adjust the support range according to the amount and size of the items to be dried, improving the efficiency of the clothes rack while increasing space utilization.

[0059] In addition to the features of the above embodiments, this embodiment further specifies that: the third folding assembly 12 includes a fixed component 121, a sliding component 122, and a movable component 123. The fixed component 121 is respectively sleeved on adjacent support tube assemblies 11, and the sliding component 122 is respectively sleeved on adjacent support tube assemblies 11. One end of the movable component 123 is connected to the fixed component 121, and the other end is connected to the sliding component 122. When the folding frame needs to be opened or folded, the movable component 123 drives the sliding component 122 to slide on the support tube assembly 11, and at the same time, the movable component 123 drives... Adjacent support tube assemblies 11 move closer to or further away from each other along a first direction. The movable component 123 also includes a third rod 1231 and a fourth rod 1232. One end of the third rod 1231 is connected to a fixed component 121 on the support tube assembly 11, and the other end is connected to a sliding component 122 on the adjacent support tube assembly 11. One end of the fourth rod 1232 is connected to the fixed component 121 on the support tube assembly 11, and the other end is connected to the sliding component 122 on the adjacent support tube assembly 11. The middle portion of the fourth rod 1232 is rotatably connected to the middle portion of the third rod 1231. This structural design ensures close cooperation and coordinated movement between the various parts of the support component 1 during folding and unfolding, guaranteeing the stability and reliability of the entire support structure. When unfolded, it forms a stable support frame; when folded, it smoothly completes the folding action, improving the user experience.

[0060] like Figure 1 and Figure 4 As shown, in addition to the features of the above embodiments, this embodiment further specifies that the third folding component 12 is a scissor-type telescopic structure. The third folding component 12 of the scissor-type telescopic structure has good telescopic and load-bearing capacity, which helps the support component 1 to better realize the folding and unfolding functions. When the clothes rack is unfolded, the scissor-type structure can gradually extend, so that the distance between the support tube components 11 is reasonably expanded, thereby providing sufficient support space for the drying component 3 and ensuring that the drying items have sufficient drying area. When stored, the scissor-type structure can quickly retract, causing the support tube components 11 to move closer to each other, effectively reducing the volume of the support component 1 and facilitating the storage of the clothes rack.

[0061] like Figure 15As shown, in addition to the features of the above embodiments, this embodiment further specifies that: the support component 1 also includes a protective sleeve 13, which is sleeved on the end of the support tube assembly 11 away from the first kit 21. The presence of the protective sleeve 13 can provide multiple protective functions. In daily use, the protective sleeve 13 can prevent the support tube assembly 11 from being scratched, worn, or damaged when in contact with the ground or other hard surfaces, and can also prevent the surface of the support tube assembly 11 from being scratched, thus extending the service life of the support tube assembly 11 and making the clothes rack more durable as a whole. At the same time, the protective sleeve 13 can also improve the stability of the clothes rack when placed, preventing it from sliding or tipping over during use, and ensuring the safety of the drying process. In addition, the protective sleeve 13 can also play a buffering role to a certain extent, reducing the noise generated during the movement or folding of the clothes rack and improving the user experience.

[0062] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.

[0063] The above embodiments only illustrate several implementation methods of this utility model, and their descriptions are relatively specific and detailed, but they should not be construed as limiting the scope of the utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these all fall within the protection scope of this utility model. Therefore, the protection scope of this utility model patent should be determined by the appended claims.

Claims

1. A folding clothes drying rack, characterized in that, The folding clothes rack includes: Support member (1), which is foldable along a first direction; A connecting component (2) is disposed on the supporting component (1) and the connecting component (2) is foldable along the first direction; The drying component (3) is rotatably mounted on the connecting component (2) and is foldable along the first direction.

2. The folding clothes rack according to claim 1, characterized in that, When the drying component (3) rotates relative to the connecting component (2), it has at least a first position, a second position, and a third position. When the drying component (3) is in the first position, it abuts against or is adjacent to the supporting component (1). When the drying component (3) is in the second position, it is parallel to the horizontal plane. When the drying component (3) is in the third position, it has an angle relative to the horizontal plane. And / or the support member (1) includes a first support rod assembly (110) and a second support rod assembly (120), the first support rod assembly (110) and the second support rod assembly (120) are rotatably disposed on the connecting member (2), the first support rod assembly (110) and the second support rod assembly (120) can move closer to each other or further away from each other when rotating relative to the connecting member (2), and both the first support rod assembly (110) and the second support rod assembly (120) can be folded along the first direction; And / or may also include a drying net assembly (4), which is detachably mounted on the support member (1).

3. The folding clothes rack according to claim 1, characterized in that, The connecting component (2) includes a first kit (21) and a first folding assembly (22). The number of the first kits (21) is at least two. Two of the at least two first kits (21) are disposed on the support component (1) and located on both sides of the support component (1). The first folding assembly (22) is connected to two adjacent first kits (21). The first folding assembly (22) is foldable along the first direction. The drying component (3) is connected to the first kits (21) and the first folding assembly (22) respectively.

4. The folding clothes rack according to claim 3, characterized in that, There are two first folding components (22), and the two first folding components (22) are respectively connected to two adjacent first kits (21). There are two drying parts (3), and each drying part (3) is connected to one of the first kits (21) and one of the two first folding components (22). The two drying parts (3) are located on both sides of the first kits (21).

5. The folding clothes rack according to claim 3, characterized in that, The first folding assembly (22) includes a first folding component (221) and a second kit (222). There are multiple first folding components (221), which are connected in sequence. The first folding components (221) located at both ends of the multiple first folding components (221) are respectively connected to two adjacent first kits (21). There are multiple second kits (222), which are arranged at the intersection of adjacent first folding components (221). The drying component (3) is connected to at least two first kits (21) and multiple second kits (222).

6. The folding clothes rack according to claim 5, characterized in that, The first assembly (21) is provided with a sliding groove (2101), a guide groove (2102), and a positioning hole (2103). There are two guide grooves (2102) and two positioning holes (2103) symmetrically arranged on both sides of the groove wall of the sliding groove (2101). The positioning hole (2103) is located above or below the guide groove (2102). It also includes a positioning pin (211) and a sliding pin (212). The first folding component (221) is located at both ends of the first folding component (221). The positioning pin (211) is adapted to the positioning hole (2103) and passes through the two symmetrically arranged positioning holes (2103). The sliding pin (212) is adapted to the guide groove (2102) and passes through the two symmetrically arranged guide grooves (2102). The sliding pin (212) can move along the guide groove (2102). And / or the first folding component (221) is a scissor telescopic structure.

7. The folding clothes rack according to claim 5, characterized in that, The drying component (3) includes a third kit (31), a second folding assembly (32), and a hanging rod (33). The hanging rod (33) includes a main hanging rod (331) and a movable hanging rod (332). The number of main hanging rods (331) is the same as the number of the first kit (21). One end of the main hanging rod (331) is set on the first kit (21), and the other end of the main hanging rod (331) is provided with the third kit (31). The two ends of the second folding assembly (32) are respectively connected to the adjacent third kit (31). The number of movable hanging rods (332) is the same as the number of the second kit (222) and is located between the adjacent main hanging rods (331). One end of the movable hanging rod (332) is connected to the second kit (222), and the other end is connected to the second folding assembly (32).

8. The folding clothes rack according to claim 7, characterized in that, The second folding assembly (32) includes an upper scissor frame tube (321) and a lower scissor frame tube (322). The upper scissor frame tube (321) is located above the lower scissor frame tube (322). There are multiple upper scissor frame tubes (321) and lower scissor frame tubes (322). The number of upper scissor frame tubes (321) and lower scissor frame tubes (322) is the same and they are staggered. When the folding frame needs to be opened or folded, the upper scissor frame tube (321) and the lower scissor frame tube (322) undergo relative displacement to drive the hanging rod (33) to unfold to both sides or retract to the center. The movable hanging rod (332) is connected to the upper scissor frame tube (321) or the lower scissor frame tube (322).

9. The folding clothes rack according to claim 3, characterized in that, The support component (1) includes a support tube assembly (11) and a third folding assembly (12). The number of support tube assemblies (11) is the same as the number of the first kit (21). Adjacent support tube assemblies (11) are connected by the third folding assembly (12).

10. The folding clothes rack according to claim 9, characterized in that, The support tube assembly (11) includes a first rod (111) and a second rod (112). The first rod (111) and the second rod (112) are rotatably mounted on the first kit (21). When the first rod (111) and the second rod (112) rotate relative to the first kit (21), they can move closer to each other or further away from each other. Adjacent first rods (111) are connected by the third folding assembly (12), and adjacent second rods (112) are connected by the third folding assembly (12). And / or the third folding assembly (12) includes a fixed component (121), a sliding component (122), and a movable component (123). The fixed component (121) is respectively sleeved on the adjacent support tube assembly (11), and the sliding component (122) is respectively sleeved on the adjacent support tube assembly (11). One end of the movable component (123) is connected to the fixed component (121), and the other end is connected to the sliding component (122). When the folding frame needs to be opened or folded, the movable component (123) drives the sliding component (122) to slide on the support tube assembly (11), and at the same time, the movable component (123) drives the adjacent support tube assembly. (11) Moving closer to or further away from each other along the first direction; the movable part (123) further includes a third rod (1231) and a fourth rod (1232), one end of the third rod (1231) is connected to the fixed part (121) on the support tube assembly (11), and the other end is connected to the sliding part (122) on the adjacent support tube assembly (11), one end of the fourth rod (1232) is connected to the fixed part (121) on the support tube assembly (11), and the other end is connected to the sliding part (122) on the adjacent support tube assembly (11), and the middle part of the fourth rod (1232) is rotatably connected to the middle part of the third rod (1231); Or the third folding component (12) may be a scissor telescopic structure; And / or the support component (1) further includes a protective sleeve (13) which is fitted over the end of the support tube assembly (11) away from the first kit (21).